TWITTER came up with a business that allows people send out information quickly.

The micro-blogging service sent out just one tweet on September 12th informing the world it had filed the required IPO papers confidentially with America's Securities and Exchange Commission (SEC) when it came to its initial public offering (IPO) but then there was silence.

Normally it is mandatory to all companies to publish information regarding them right after they have submitted their initial IPO documents to the SEC. However Twitter took benefit from provision in America's Jumpstart Our Business Start-ups Act-or JOBS Act for short-that permits "emerging growth companies" to kick off the IPO process confidentially. They should be able to publish the IPO earlier than three weeks before they proceed on investor road shows to advertize shares. The act characterizes promising growth firms as ones with less than $1 billion of yearly revenue. The JOBS Act became law in April 2012. It is by giving some companies the option of filing for an IPO in secret that aims to encourage more flotation. According to the SEC, by the end of June 2013 roughly 250 companies in America had filed IPO documents confidentially.

For many reason this approach appeals to Twitter. The firm anticipates that by maintaining its financial performance confidential for a while, and then heading fast to a listing, it can keep away from the kind of hype that surrounded Facebook's IPO in 2012. Although Twitter must reveal its correspondence with the regulator when it finally publishes its IPO documents it can also address any concerns the SEC has about its submission in private. It is hopeful to shun the fortune of Groupon, which exposed particulars of its finances immediately after it filed for an IPO in 2011. Several of the firm's accounting rules were openly questioned by the SEC, which frightened investors.

There are other advantages too. If it wishes to, Twitter must only publish two years of audited f

The path to low-carbon electricity generation in Texas will likely require the co-development and integration of both natural gas and renewable energy resources like wind and solar power, a new research report commissioned by the Texas Clean Energy Coalition has found.

The white paper, prepared by the Brattle Group for the Austin-based nonprofit, states that despite perceived competition between natural gas and renewable energy resources in Texas, the reality is the two sectors can aid each other's growth and can eventually help Texas meet rising energy demand in an era of tighter environmental controls.

"Low-priced natural gas and clean renewable resources are complementary, not competing, resources to displace other fuels over the long term. Coordinated development of both will lead to a win-win for Texas and the environment," Kip Averitt, chairman of the Texas Clean Energy Coalition, said in a statement announcing the results of the Brattle Group analysis.

The report examined conditions across the Electric Reliability Council of Texas (ERCOT) territory, which has some of the nation's greatest wind power capacity and has undergone an unprecedented boom in natural gas production aided by hydraulic fracturing.

Some have asserted that an abundance of inexpensive natural gas will displace renewable energy, thus keeping Texas from fully developing its extensive wind and solar resources.

The Brattle analysis challenges that conclusion, asserting instead that "in the short run, low gas prices are extremely unlikely to change the fact that existing renewables will nearly always have priority over gas-fired plants since, due to the absence of fuel costs, their variable costs are lower than those of essentially all other resources."

And longer term, the analysis finds, new gas-fired power plants may compete with wind and solar power, but such conditions will be predicated on fluctuation in coal and gas prices, shifts in federal and state energy and environmental poli

The path to low-carbon electricity generation in Texas will likely require the co-development and integration of both natural gas and renewable energy resources like wind and solar power, a new research report commissioned by the Texas Clean Energy Coalition has found.

The white paper, prepared by the Brattle Group for the Austin-based nonprofit, states that despite perceived competition between natural gas and renewable energy resources in Texas, the reality is the two sectors can aid each other's growth and can eventually help Texas meet rising energy demand in an era of tighter environmental controls.

Although it is common for companies to push sustainability results by establishing definite, time-bound goals, attaining them is a distinct process for every enterprise. Innovation, investment and operational savvy all play a part in achieving success; but the most significant factor is formulating a vigorous culture of sustainability that incorporates this approach into every facet of the business.

Recently, our company announced that over the past three years we have made noteworthy improvements in our environmental performance. This included reduction of our energy usage by 12%, our greenhouse gas emissions by 15.7%, and attaining a leading-edge level of 3.5 hectoliters of water used for every hectoliter of beer made, posting an 18.6% reduction. These efficiency improvements were all achieved mainly without any major investment in new, sophisticated technology.

Like any global company reach, our worldwide operations face various local conditions. Challenges ranging from the capabilities and age of equipment to the diversity in quality and availability of raw materials mean that choosing a "one-size-fits-all" approach is often impossible. The main approach that can steer a company toward environmental maturity is to develop a culture of environmental conservation and awareness into all aspects of every employee's tasks on a daily basis.

This idea has been around for a while; however, it is also something that is not often observed in reality. For us, ascertaining that we provide incentives and challenges to our 118,000 fellow workers to make gradual changes in the work environment - big or small, within our more than 140 breweries and soft drink facilities - was the best method to attain our three-year goals. Along the way, we discovered some essential factors in establishing such a culture of sustainability:

1.Elevate sustainability initiatives to the same level as other business-critical functions

To die for scenic reefs in Red or the South China Sea is dying; pretty fishes and panoramic colors of soft and hard corals are now down to a complex ecology similar to tropical forest ecosystems. Compare to the microorganisms that makes the whole thing more tremendous in doing all the destruction, the predators and consumers, the producer algae and the tiny invertebrates mean nothing.

Catalina Reyes of CoECRS. (Centre of Excellence for Coral Reef Studies) and the University of Queensland has published her work alongside 4 colleagues, on the bacteria, fungi and algae that live in this most complex marine ecosystem.

The change in this ecosystem recently is because of our overproduction. Oceans now are Cola like, the CO2 we made over the last century or two has made the sea water to feel like one. As to Catalina’s research, the acid has effects and that are clearly identifies in the micro-world of corals. She links it all up and explained, “So fish, turtles, sharks, lobsters and other reef organisms may lose their homes, threatening coral reef biodiversity and the livelihoods of tens of millions of people.” All reefs, molluscs and others are basically made up of Calcium carbonate, accepted as true to hard corals as well. Due to different reasons erosion of the reef is just a normal phenomenon but at present the erosion has become excessive that it destroys the reefs worldwide at a really disturbing rate.

To die for scenic reefs in Red or the South China Sea is dying; pretty fishes and panoramic colors of soft and hard corals are now down to a complex ecology similar to tropical forest ecosystems. Compare to the microorganisms that makes the whole thing more tremendous in doing all the destruction, the predators and consumers, the producer algae and the tiny invertebrates mean nothing.

Catalina Reyes of CoECRS. (Centre of Excellence for Coral Reef Studies) and the University of Queensland has published her work alongside 4 colleagues, on the bacteria, fungi and algae that live in this most complex marine ecosystem.

The change in this ecosystem recently is because of our overproduction. Oceans now are Cola like, the CO2 we made over the last century or two has made the sea water to feel like one. As to Catalina's research, the acid has effects and that are clearly identifies in the micro-world of corals. She links it all up and explained, "So fish, turtles, sharks, lobsters and other reef organisms may lose their homes, threatening coral reef biodiversity and the livelihoods of tens of millions of people." All reefs, molluscs and others are basically made up of Calcium carbonate, accepted as true to hard corals as well. Due to different reasons erosion of the reef is just a normal phenomenon but at present the erosion has become excessive that it destroys the reefs worldwide at a really disturbing rate.

JUNEAU, Alaska - the Alaskan Brewing Co. is going green, but instead of looking to solar and wind energy, it has turned to a very familiar source: beer. (Spokesman.com)

The Juneau-based beer maker has installed a unique boiler system in order to cut its fuel costs. It purchased a $1.8 million furnace that burns the company's spent grain - the waste accumulated from the brewing process - into steam that powers the majority of the brewery's operations. Company officials now joke they are now serving "beer-powered beer." What to do with spent grain was seemingly solved decades ago by breweries operating in the Lower 48. Most send the used grain, a good source of protein, to nearby farms and ranches to be used as animal feed.

But there were only 37 farms in southeast Alaska and 680 in the entire state as of 2011, and the problem of what to do with the excess spent grain - made up of the residual malt and barley - became more problematic after the brewery expanded in 1995. The Alaskan Brewing Co. had to resort to shipping its spent grain to buyers in the Lower 48. Shipping costs for Juneau businesses are especially high because there are no roads leading in or out of the city; everything has to be flown or shipped in. However, the grain is a relatively wet byproduct of the brewing process, so it needs to be dried before it is shipped - another heat-intensive and expensive process. But the company was barely turning a profit by selling its spent grain. Alaskan Brewing gets $60 for every ton it sends to farms in the Lower 48, but it costs them $30 to ship each ton.

So four years ago, officials at the company started looking at whether it could use spent grain as an in-house, renewable energy source and reduce costs at the same time. It contracted with a North Dakota company to build the special boiler system after the project was awarded nearly $500,000 in a grant from the federal Rural Energy for America Program. The craft brewery is expecting

Fossil fuels-coal, oil, and natural gas-are America's primary source of energy. America's annual consumption of fossil fuels grown rapidly. 89 % of these consumption are consumed by boilers, transportation, residential usage, fuels for direct heating of process. The balance is used for feed-stocks, raw materials, and other miscellaneous uses. And most of the dirty fuels such as coal and residual oil go into boilers.

Fuel burned are by far the largest single source of air pollution. This pollution is from sulfur oxide. It is also a significant source of particulate matter and nitrogen oxides. Boiler combustion is sufficiently important to warrant the effort to analyze the complete nature of the problems.

Fuel consumption in boilers is divided into three sectors: utility boilers producing steam for generation of electricity which is actually consuming probably 59%, industrial boilers producing steam or hot water for process heat,generation of electricity or space heat consuming about 24%, and boilers for space heating for commercial and institutional facilities consuming the 17%.

The fuels consumed by boilers in large quantities are natural gas, distillate oil, and coal. Additional energy is derived from the burning of waste such as bark, bagasse, liquid hydrocarbon waste materials, etc. These said fuels contribute only a small percent to energy requirements. But they may however present environmental problems. Although problems have not been address due to the fact that these problems are not full understood. New Sources performance Standards for burning boilers waste are to be developed in the near future. For fossil fuels, various combination of consuming sectors and type of fuel, have independent significant and insignificant environmental consequences. Boilers have three different types, the atertube, firetube and cast iron therefore to determine the overall pollution due to boilers are hard to determine and complicated. In addition each type varie

Alarmed that hope was soon be gone on the emphasis on "green" energy, presidents Obama's re-election has put a new optimism in the step of environmentalists restoring hope not just for more aggressive climate-change policy but to continue on the said project despite the unforeseen failure and serial bankruptcies of Solyndra and other green-energy in unison.

In 1970's we were at the lowest in terms of energy resources are concerned because hydrocarbon energy such as oil, natural gas and coal were in short supply, expensive and were being imported from unstable regions overseas, we were then left with no choice but endow with renewable energy. The problem with hydrocarbon energy is that it produces eccentric amount of air pollution. As time passes by, technology has found a way to reduce air pollution. It appears that unpredictably, conventional domestic hydrocarbon energy has become abundant again despite unrelenting federal hostility.

The global-warming crusade is still hanging onto its dreams of political relevance. Why is this green energy important? Now that we had proven that green energy is the golden road to prosperity was in fact a lie, but somehow the strategy of forcing higher-cost energy sources on consumers and propping them up with taxpayer subsidies is somewhat been blinded from the laws of economics. Meaning we are all paying twice.

To be sure, if the government will support financially and authorize any form of economic activity, it will "create jobs." However, as Ms. Furchtgott-Roth, author of Regulating to Disaster, she patiently explains, this kind of reasoning ignores the famous lesson of Frederic Bastiat about what is unseen: "What is seen according to Bastiat, are the jobs directly created by the government, and what is not seen are the workers displaced by the effects of increased taxes, tariffs and government regulation." The idea could have been more believable if we actually got some of the green jobs. In fact, new emp

The thought could be scary, knowing how much toxins you inhale everyday. Through the help of technology European researchers are gearing up to monitor thousands of people. Smartphones are given away to record the chemicals to which they are exposed every day.

Exposome, the term used by European Commission to study the effects of environmental exposures to human health. It was then hope that the four-year studies will benefit public health in ways that genome research so far has not. Exposone could reveal a warning or warnings of environmental health issues for use.

"There's been too much emphasis on genetic factors, which contribute relatively little to disease compared with environmental factors," says Martyn Smith, a toxicologist at the University of California, Berkeley, who is participating in the newly funded Exposomics project. Paolo Vineis, an environmental epi¬demiologist at Imperial College London, leads the €8.7-million project.

Some studies do not always succeed like the Genome-wide association studies, in which scientists search for genetic variants linked to disease. They have failed to fully explain why some people are more susceptible than others to chronic diseases, such as type 2 diabetes.

The new study will work this way, subjects will carry smartphones equipped with sensors to measure exposures, and their blood will be analyzed to monitor molecular changes. The majority of the participants are already concerned in other long-term health studies. In order to understand the triggers for conditions such as heart disease, asthma and lung cancer, goal is to look for biomarker differences between people walking through areas with low air pollution and those exposed to urban fumes. The idea is to differentiate the difference the toxins will cause the human health basing on their environment. Vineis's exposomics approach has already exposed gene-expression signatures that connect people's leukaemia risk with their exposure to heavy me

Renewable energy sources (RES) supply 14% of the total world energy demand. The future growth in the energy sector will be primarily in the new regime of renewable energy, and to some extent natural gas-based systems and the conventional oil and coal sources will then die out.

Natural Disasters Victims: Scammers Wait until we are in our Lowest Opportunists prey on natural disasters' victims and even those who want to help. They would not miss any single chance that they could profit something from any kind of people by taking advantage of their weaknesses.

Another Beautiful City Mankind Starts to Destroy Truly Asia, Malaysia lives up to its slogan. Truly a remarkable paradise this country was and still rising, Malaysia has become one of the world's favorite for travel enthusiasts. and rainforests, mountains and minarets, skycrapers and sampans; are only few to more fun Malaysia can offer.

The economic development of one country is dependent upon the ability of the authorities to set up a highly suitable, competitive and reliable electricity sector. Why is natural gas better than coal boilers?

Only when there is extreme environmental pressure or substantial reduction in loads that conversion from coal to 100% natural gas is possible.

Not until the 20th century until natural gas was used for production of energy, it was dismissed as a useless byproduct of crude oil production until then. But now natural gas accounts for 23 percent of the world's energy consumption and still growing. The International Energy Agency predicts that the demand for natural gas will grow by approximately 44 percent through 2035.

Natural gas is the cleanest-burning conventional fuel not to mention it has been one of the most economical energy sources. It is an environmentally friendly and efficient source of energy. It produces lower levels of greenhouse gas emissions than heavier hydrocarbon fuels such as coal and oil. Natural gas fuels electric power generators, heats buildings and is used as a raw material in many consumer products, such as those made of traditional plastics. However, natural gas has never been a cheaper fuel than coal.

Coal is one of the longest-used and is considered as the most abundant fossil fuels on Earth. Coal mining has been going on since then 17th century. Coal burning boilers have also been around for a long time, and while they may not always be popular, these machines have some definite advantages in terms of costs and simplicity.

Because it is the most abundant it is the cheapest form of fossil fuel to burn. But coal boilers on the other hand have harmful effects on the environment and human health. Its emissions contain sulfur combines with air to create the poison gas sulfur oxide. When this gas releases into the atmosphere, it causes polluting rain. Extracting coal from mines further damages soil and water resources, adding to the

The economic development of one country is dependent upon the ability of the authorities to set up a highly suitable, competitive and reliable electricity sector. Why is natural gas better than coal boilers?

Only when there is extreme environmental pressure or substantial reduction in loads that conversion from coal to 100% natural gas is possible.

Not until the 20th century until natural gas was used for production of energy, it was dismissed as a useless byproduct of crude oil production until then. But now natural gas accounts for 23 percent of the world's energy consumption and still growing. The International Energy Agency predicts that the demand for natural gas will grow by approximately 44 percent through 2035.

Natural gas is the cleanest-burning conventional fuel not to mention it has been one of the most economical energy sources. It is an environmentally friendly and efficient source of energy. It produces lower levels of greenhouse gas emissions than heavier hydrocarbon fuels such as coal and oil. Natural gas fuels electric power generators, heats buildings and is used as a raw material in many consumer products, such as those made of traditional plastics. However, natural gas has never been a cheaper fuel than coal.

Coal is one of the longest-used and is considered as the most abundant fossil fuels on Earth. Coal mining has been going on since then 17th century. Coal burning boilers have also been around for a long time, and while they may not always be popular, these machines have some definite advantages in terms of costs and simplicity.

Because it is the most abundant it is the cheapest form of fossil fuel to burn. But coal boilers on the other hand have harmful effects on the environment and human health. Its emissions contain sulfur combines with air to create the poison gas sulfur oxide. When this gas releases into the atmosphere, it causes polluting rain. Extracting coal from mines further damages soil and water resources, adding to the

We all know that regardless of where you live, the weather is often unpredictable. A comfy 60 degree winter day in the Midwest; chilly and breezy on a late spring day in the pacific coast. To some of us, the prevalence of unusual weather is simply the work of Mother Nature. Others are more convinced that our reckless treatment of the earth has made global warming that much more of a reality. The natural level of discomfort that results from the thought of global warming is reinforced by numerous reports claiming inevitable environmental doom. A recent article in the Nature Magazine went as far as predicting that over the next fifty years, well over one million species will cease to exist due to global warming.

Impact of the Information Technology

Coupled with the fear prompted by environmental experts and know-it-alls is a plethora of scams. Some attempt to persuade our beliefs, while others operate with the intentions of fraud. Far from being verified is one claim that global warming is a man-made predicament. Instead of drawing these conclusions from observable facts, these assumptions are based on methods of computer modeling that generate artificial, manipulable graphic-based visions of the earth. A computer can only process the information fed to it, which in this case is usually fraudulent data intended to stir up controversy.

Other types of environmental fraud target those who carry enough concern about the planet to make a difference. These scams typically find their way to you via email, online survey or fraudulent website. Often, criminals will make an attempt to persuade you into contributing to the prevention of global warming, preservation of the rain forest or other environmental issues. These frauds are experienced and rather savvy, able to produce content that makes them appear legitimate. Some of them will even steal logos and other identifying materials to masquerade themselves as reputable environmental organizations. To further complicate m

As we all know earthquake is a catastrophic natural disaster. Most earthquake-related deaths are caused by the collapse of structures and the construction practices play a tremendous role in the death toll of an earthquake. In southern Italy in 1909 more than 100,000 people perished in an earthquake that struck the region. Almost half of the people living in the region of Messina were killed due to the easily collapsible structures that dominated the villages of the region. Though there are some ways to prevent this from happening, it can never be considered as risk avoidance.

A larger earthquake that struck San Francisco three years earlier had killed fewer people (about 700) because building construction practices were different type (predominantly wood). Survival rates in the San Francisco earthquake was about 98%, that in the Messina earthquake was between 33% and 45%) (Zebrowski, 1997). Even a moderate rupture beneath a city with structures unprepared for shaking can produce tens of thousands of casualties. Due to this fact, Crown Eco Management determined that safety measures for this could not be compared to fraud prevention.

Although probably the most important that we should know, direct shaking effects are not the only hazard associated with earthquakes, other effects such as landslides, liquefaction, and tsunamis have also played important part in destruction produced by earthquakes.

According to the Crown researchers, some earthquakes are not natural. Human beings can actually cause them.

That's the case with an earthquake in Lorca, Spain, last May. The quake measured 5.1 on the Richter scale and killed nine people. According to an analysis published in Crown Eco Management, the Lorca quake was caused by the extraction of groundwater from an aquifer near the fault that slipped. In circumstance, it does not take much to trigger an earthquake. Oil and gas wells, rock quarries, even the added pressure of a reservoir lake behind a new dam can cause

IFC's investment approach is to promote development of the waste industry in emerging markets, help reduce costs, and allow the industry to become competitive. We support integrated solid waste (SW) management approaches, with regional strategies to gain economies of scale and drive down costs.